A kind of hanging method for mine mechanical and electric equipment installation
Technical field
The invention belongs to mine electromechanical equipment mounting technique fields, and in particular to a kind of for mine mechanical and electric equipment installation
Hanging method.
Background technology
The quality problems of mine mechanical and electric equipment installation are one of the main reason for causing safety accident to occur, either at which
In the work progress of a kind of engineering project, the installation of electromechanical equipment is all important component therein.In mine electromechanical equipment
Construction in be even more the most important thing.The installation quality for improving mine electromechanical equipment can not only reduce the probability of peril generation,
Avoid personnel's property loss, it is often more important that, the production efficiency of mine can be improved, to increase the performance of enterprises.As mine is looked forward to
While industry continues to develop, the production scale of bargh also goes from strength to strength, and the demand of mine electromechanical equipment is also increasing, this
Also mine electromechanics installation personnel installation mine electromechanical equipment operating pressure is increased to a certain extent, in the installation of mine electromechanics
It needs to use hoisting mechanism in the process.Hoisting mechanism in the prior art for mine mechanical and electric equipment installation has following several:
Chinese patent application CN201720776599.7 discloses a kind of dovetail groove profile hoisting mechanism, as shown in Figure 1 comprising
Truss hoisting 1 and lifting batten, the truss hoisting lower end is hingedly provided with multiple lifting battens, the lifting along its length
Batten bottom is hingedly equipped with hanging component, and the hanging component is made of two symmetrically arranged lifting parts, the lifting part
Including lifting plate and hanging block, hole for hoist is provided at the top of lifting plate, lifting batten bottom is arranged between two holes for hoist and leads to
Bolt assembly is crossed to fix, lifting plate bottom portion side end be fixedly connected with hanging block, be provided in the hanging block with inside trapezoidal channel section
The clamping bevel edge of side wall cooperation.
Chinese patent application CN201720351636.X discloses a kind of Architectural Equipment hanging apparatus, as shown in Fig. 2, including
The upper end of first ladder frame, first ladder frame is equipped with the first hydraulic stem, and the upper end of first hydraulic stem passes through the first ladder
The upper end of the upper end of shape frame, first hydraulic stem is equipped with the second ladder frame, and second ladder frame is equipped with the second hydraulic stem,
Holder is mounted on the convex edge, the upper end inner wall rotation of the holder is equipped with idler wheel, and the lower end of the holder is equipped with coiler,
The side of the holder is equipped with first motor, one end of the shaft connection coiler of the first motor, on the coiler around
It is connected to steel wire rope, the lower end of the steel wire rope is equipped with hook.
But although hanging device in the prior art can be used in mine electromechanics installation, but lifting part cannot be made
Rotation is not easy to be moved to and need to install near electromechanical top lifting part to any angle, uniform force.
Invention content
The purpose of the present invention is to provide a kind of hanging methods for mine mechanical and electric equipment installation, to solve above-mentioned background
What is proposed in technology cannot be such that lifting part rotates to any angle, uniform stressed, be not easy to that lifting part is moved to and is needed
Technical problem near electromechanical top is installed.
To achieve the above object, the present invention provides the following technical solutions:
A kind of hanging method for mine mechanical and electric equipment installation specifically includes following steps:
S1, first motor and the second motor are opened, the first sliding shoe and the second sliding shoe is respectively moved to the two of second crossbar
End, and then link up with the both ends that can be located at second crossbar with clump weight;
S2, the electromechanical equipment lifted will be needed to hook by linking up with, opens the 4th motor, the rotation of the 4th motor can drive second turn
Axis, and then the electromechanical equipment lifted can will be needed to be pulled upwardly;
S3, the 5th motor is opened, the rotation of the 5th motor can drive first rotating shaft to rotate, second crossbar can be rotated to any angle
Degree, and then the electromechanical equipment lifted can will be needed to rotate to the direction of installation;
S4, open third motor, third motor rotation can drive third sliding shoe move, and then second crossbar can be moved to
It needs to install near the top of electromechanical equipment;
S5, first motor and the second motor are opened, the first sliding shoe can be moved to mechanical and electric equipment installation point by first motor work
Surface, and then electromechanical equipment can be moved to the surface of installation point, the work of the second motor can drive the second sliding shoe to move
It is dynamic, and then clump weight can be driven to move, second crossbar uniform stressed can be made.
Preferably, also step S6, the 4th motor of opening, the 4th motor reversal, electromechanical equipment can delay after step s 5
Slowly it is moved downward to mechanical and electric equipment installation point.
The hanging method uses a kind of hoisting mechanism for mine mechanical and electric equipment installation, including crossbeam, the cross
The lower surface of beam offers third groove, and inside one end of the third groove offers second inner chamber, the second inner chamber
Inside is equipped with third motor, and the output shaft of the third motor is connected with third lead screw, the third lead screw by shaft coupling
One end be rotatablely connected by the other end of 3rd bearing and third inside grooves through the side of second inner chamber, and the third
Third sliding shoe is threaded on lead screw, the lower surface of the third sliding shoe is equipped with the 5th motor, the 5th motor
Output shaft first rotating shaft is connected with by shaft coupling, the lower end of the first rotating shaft and the upper surface of second crossbar are fixed and are connected
It connects, the lower surface of the second crossbar offers the first groove and the second groove, and the lower surface of the second crossbar offers
First inner chamber, the first inner chamber is provided with two groups, and the inside of first inner chamber described in one of which is equipped with first motor, institute
The output shaft for stating first motor is connected with the first lead screw by shaft coupling, and one end of first lead screw runs through the one of the first groove
End is connected by first bearing and the other end rotation of the first groove.
Preferably, the first sliding shoe is threaded on first lead screw, first sliding shoe is connected with clump weight,
The inside of first inner chamber described in another group is equipped with the second motor, and the output shaft of second motor is connected with by shaft coupling
One end of two lead screws, second lead screw is rotated through one end of the second groove by the other end of second bearing and the second groove
Even.
Preferably, the second sliding shoe, the lower surface both ends of the second sliding shoe are threaded on second lead screw
It is respectively equipped with the 4th motor and baffle, the output shaft of the 4th motor is connected with the second shaft by shaft coupling, and described second
One end of shaft is connect with flapper, and steel wire rope is wrapped in second shaft, and one end of the steel wire rope is connected with
Hook.
Preferably, through-hole is offered in the first inner chamber and second inner chamber, the through-hole is internally provided with third cross
Bar is equipped with exhaust fan on the third cross bar.
Preferably, the bottom of the crossbeam is equipped with holder, and the holder is stainless steel stent.
Preferably, the bottom of the holder is equipped with first crossbar, and the quantity of the first crossbar is three groups, and described in three groups
First crossbar annular is equidistantly positioned in the bottom of holder.
Preferably, the side of the crossbeam is equipped with iron ladder, and the iron ladder is vertically mounted on the lower section of crossbeam.
Preferably, the length of the crossbeam is longer than the length 0.5-0.8m of second crossbar, and the crossbeam and second crossbar
It is that stainless steel material is made.
Preferably, the height of the baffle and the 4th motor is highly consistent, and the baffle is stainless steel plate.
Preferably, the crossbeam is fixedly connected by bolt with holder.
Preferably, in order to make the lifting quality of hoisting mechanism have there are one larger range, in installation mine electromechanical equipment
When, it is not only able to sling the mine electromechanical equipment of big quality, and the mine electromechanical equipment of smaller quality can be lifted, realizes institute
The matching of the mass M 1 and clump weight mass M 2 of hoisting mechanism lifting is stated, and ensures the stability of the hoisting mechanism, it is described to hang
The mass M 1 of mounting mechanism lifting is more than or equal to 20 kilograms and is less than or equal to 5000 kilograms;The clump weight mass M 2 is more than or equal to 2,000
Gram be less than or equal to 50 kilograms.Further, the mass M 1 and clump weight mass M 2 of hoisting mechanism lifting meet:M1·M2
More than or equal to 100-240000.
Preferably, in order to reduce the friction between the sliding shoe and lead screw, increase bearing capacity, and improve sliding shoe
Service life, the sliding shoe and lead screw are all made of trapezoidal thread or rectangular thread, between the sliding shoe and lead screw between
It is 0.1-0.25mm away from d.Further, the material of the sliding shoe and lead screw is 45# steel, and hardness Y is after modifier treatment
HB230-240。
Preferably, the spacing d between the mass M 1, clump weight mass M 2 of the hoisting mechanism lifting, sliding shoe and lead screw
Meet with hardness Y:
;
Wherein, β is spacing adjustment factor, value 0.025-0.27;Above formula only carries out numerical operation when calculating spacing d, no
Carry out unit-distance code.
Compared with prior art, technique effect of the invention and advantage:
1, the hanging method for mine mechanical and electric equipment installation of the invention is rotated by the 5th motor and first rotating shaft is driven to turn
It is dynamic, second crossbar can be rotated to any angle;
2, the hanging method for mine mechanical and electric equipment installation of the invention, is worked at the same time by first motor and the second motor,
The distance between the first sliding shoe and first motor can be made to be consistent with the distance between the second sliding shoe and the second motor, into
And second crossbar uniform stressed can be made;
3, the hanging method for mine mechanical and electric equipment installation of the invention can drive third sliding shoe by the rotation of third motor
It is mobile, convenient for second crossbar to be moved to and need to install near electromechanical top;
4, the hanging method for mine mechanical and electric equipment installation of the invention, by the way that quality, the counterweight that hoisting mechanism lifts is arranged
Block quality, and between relationship, so that the lifting quality of hoisting mechanism is had there are one larger range, set in installation mine electromechanics
It when standby, is not only able to sling the mine electromechanical equipment of big quality, and the mine electromechanical equipment of smaller quality can be lifted, realize
The matching of the mass M 1 and clump weight mass M 2 of the hoisting mechanism lifting, and ensure the stability of the hoisting mechanism;
5, the hanging method for mine mechanical and electric equipment installation of the invention, by the material and the transmission that select sliding shoe and lead screw
Form increases bearing capacity, and improve the service life of sliding shoe to reduce the friction between the sliding shoe and lead screw;
6, the hanging method for mine mechanical and electric equipment installation of the invention, by the way that the mass M 1 of hoisting mechanism lifting is arranged, matches
Relationship between spacing d between pouring weight mass M 2, sliding shoe and lead screw and hardness Y, with further decrease the sliding shoe with
Friction between lead screw increases bearing capacity, and improves the service life of sliding shoe, while ensureing the stabilization of the hoisting mechanism
Property, to improve security performance.
Description of the drawings
Fig. 1 is the hoisting mechanism structural schematic diagram for mine mechanical and electric equipment installation of the present invention;
Fig. 2 is the hoisting mechanism second crossbar bottom schematic cross-sectional view for mine mechanical and electric equipment installation of the present invention;
Fig. 3 is the hoisting mechanism crossbeam bottom schematic cross-sectional view for mine mechanical and electric equipment installation of the present invention;
Fig. 4 is the portions the hoisting mechanism A enlarged structure schematic diagram for mine mechanical and electric equipment installation of the present invention;
Fig. 5 is the hoisting mechanism through-hole structure schematic diagram for mine mechanical and electric equipment installation of the present invention;
Fig. 6 is the hanging method flow chart for mine mechanical and electric equipment installation of the present invention.
In figure:1 crossbeam, 2 holders, 3 first crossbars, 4 the 5th motors, 5 first rotating shafts, 6 second crossbars, 7 first inner chambers, 8
First motor, 9 first grooves, 1 first lead screw, 11 first bearings, 12 first sliding shoes, 13 second motors, 14 second grooves, 15
Second lead screw, 16 second bearings, 17 the second sliding shoes, 18 second inner chambers, 19 third motors, 20 third grooves, 21 third lead screws,
22 3rd bearings, 23 third sliding shoes, 24 the 4th motors, 25 second shafts, 26 baffles, 27 steel wire ropes, 28 hooks, 29 through-holes,
30 third cross bars, 31 exhaust fans, 32 iron ladder, 33 bolts, 34 clump weights.
Specific implementation mode
Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete
Site preparation describes, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments, is based on
Embodiment in the present invention, it is obtained by those of ordinary skill in the art without making creative efforts every other
Embodiment shall fall within the protection scope of the present invention.
Embodiment 1
As shown in fig. 6, a kind of hanging method for mine mechanical and electric equipment installation, specifically includes following steps:
S1, first motor and the second motor are opened, the first sliding shoe and the second sliding shoe is respectively moved to the two of second crossbar
End, and then link up with the both ends that can be located at second crossbar with clump weight;
S2, the electromechanical equipment lifted will be needed to hook by linking up with, opens the 4th motor, the rotation of the 4th motor can drive second turn
Axis, and then the electromechanical equipment lifted can will be needed to be pulled upwardly;
S3, the 5th motor is opened, the rotation of the 5th motor can drive first rotating shaft to rotate, and then second crossbar can be rotated to any
Angle, and then the electromechanical equipment lifted can will be needed to rotate to the direction of installation;
S4, open third motor, third motor rotation can drive third sliding shoe move, and then second crossbar can be moved to
It needs to install near the top of electromechanical equipment;
S5, first motor and the second motor are opened, the first sliding shoe can be moved to mechanical and electric equipment installation point by first motor work
Surface, and then electromechanical equipment can be moved to the surface of installation point, the work of the second motor can drive the second sliding shoe to move
It is dynamic, and then clump weight can be driven to move, second crossbar uniform stressed can be made.
The hanging method is using a kind of hoisting mechanism for the installation of mine electromechanics, as shown in Figs. 1-5 comprising horizontal
The lower surface of beam 1, the crossbeam 1 offers third groove 20, and inside one end of the third groove 20 offers second inner chamber
18, the inside of the second inner chamber 18 is equipped with third motor 19, and the output shaft of the third motor 19 is connected by shaft coupling
There are third lead screw 21, one end of the third lead screw 21 to pass through 3rd bearing 22 and third groove through the side of second inner chamber 18
Other end rotation connection inside 20, and it is threaded with third sliding shoe 23 on the third lead screw 21, pass through third motor
19 rotations can drive third sliding shoe 23 to move, convenient for second crossbar 6 to be moved to and need to install near electromechanical top;Institute
The lower surface for stating third sliding shoe 23 is equipped with the 5th motor 4, and the output shaft of the 5th motor 4 is connected with by shaft coupling
The lower end of one shaft 5, the first rotating shaft 5 is fixedly connected with the upper surface of second crossbar 6, is rotated and is driven by the 5th motor 4
First rotating shaft 5 rotates, and can rotate second crossbar 6 to any angle;The lower surface of the second crossbar 6 offers the first groove
9 and second groove 14, and the lower surface of the second crossbar 6 offers first inner chamber 7, the first inner chamber 7 is provided with two groups,
And the inside of first inner chamber 7 described in one of which is equipped with first motor 8, the output shaft of the first motor 8 passes through shaft coupling
It is connected with the first lead screw 10, one end of first lead screw 10 passes through first bearing 11 and first through one end of the first groove 9
The other end of groove 9 is rotatablely connected.
The first sliding shoe 12 is threaded on first lead screw 10, first sliding shoe 12 is connected with clump weight
34, the inside of first inner chamber 7 described in another group is equipped with the second motor 13, and the output shaft of second motor 13 passes through shaft coupling
It is connected with the second lead screw 15, one end of second lead screw 15 passes through second bearing 16 and second through one end of the second groove 14
The other end of groove 14 is rotatablely connected.
It is threaded with the second sliding shoe 17 on second lead screw 15, simultaneously by first motor 8 and the second motor 13
Work, can make between the distance between the first sliding shoe 12 and first motor 8 and the second sliding shoe 17 and the second motor 13 away from
From being consistent, and then 6 uniform stressed of second crossbar can be made;The lower surface both ends of the second sliding shoe 17 are respectively equipped with the 4th
The output shaft of motor 24 and baffle 26, the 4th motor 24 is connected with the second shaft 25, second shaft by shaft coupling
25 one end is rotatablely connected with baffle 26, and steel wire rope 27, one end of the steel wire rope 27 are wrapped in second shaft 25
It is connected with hook 28.
Through-hole 29 is offered in the first inner chamber 7 and second inner chamber 18, the through-hole 29 is internally provided with third cross
Bar 30 is equipped with exhaust fan 31 on the third cross bar 30, by being equipped with exhaust fan 31 on third cross bar 30, can play heat dissipation
Effect, improve the service life of motor.
The bottom of the crossbeam 1 is equipped with holder 2, and the holder 2 is stainless steel stent, and branch is equipped with by the bottom of crossbeam 1
Frame 2, the holder 2 are stainless steel stent, are played a supporting role to crossbeam 1.
The bottom of the holder 2 is equipped with first crossbar 3, and the quantity of the first crossbar 3 is three groups, and first described in three groups
3 annular of cross bar is equidistantly positioned in the bottom of holder 2, is equidistantly positioned in holder 2 by 3 annular of first crossbar described in three groups
Bottom can preferably improve this stability for the hoisting mechanism of mine electromechanics installation.
The length of the crossbeam 1 is longer than the length 0.5-0.8m of second crossbar 6, and the crossbeam 1 and second crossbar 6 are
Stainless steel material is made, and the length 0.5-0.8m of second crossbar 6 is longer than by the length of crossbeam 1, easily facilitates second crossbar 6
Rotation.
The height of the baffle 26 is highly consistent with the 4th motor 24, and the baffle 26 is stainless steel plate, passes through gear
The height of plate 26 is highly consistent with the 4th motor 24, improves stability when the 4th motor 24 uses.
The crossbeam 1 is fixedly connected by bolt 33 with holder 2.
It drives first rotating shaft 5 to rotate in conclusion the present invention is worked by the 5th motor 4, and then second crossbar 6 can be revolved
Go to any angle, worked at the same time by first motor 8 and the second motor 13, can make the first sliding shoe 12 and first motor 8 it
Between distance be consistent with the distance between the second sliding shoe 17 and the second motor 13, and then can make second crossbar 6 uniformly by
Power can drive third sliding shoe 23 to move, convenient for being moved to and needing fitting machine by second crossbar 6 by the rotation of third motor 19
Near the top of electricity.
Embodiment 2
As shown in fig. 6, a kind of hanging method for mine mechanical and electric equipment installation, specifically includes following steps:
S1, first motor and the second motor are opened, the first sliding shoe and the second sliding shoe is respectively moved to the two of second crossbar
End, and then link up with the both ends that can be located at second crossbar with clump weight;
S2, the electromechanical equipment lifted will be needed to hook by linking up with, opens the 4th motor, the rotation of the 4th motor can drive second turn
Axis, and then the electromechanical equipment lifted can will be needed to be pulled upwardly;
S3, the 5th motor is opened, the rotation of the 5th motor can drive first rotating shaft to rotate, and then second crossbar can be rotated to any
Angle, and then the electromechanical equipment lifted can will be needed to rotate to the direction of installation;
S4, open third motor, third motor rotation can drive third sliding shoe move, and then second crossbar can be moved to
It needs to install near the top of electromechanical equipment;
S5, first motor and the second motor are opened, the first sliding shoe can be moved to mechanical and electric equipment installation point by first motor work
Surface, and then electromechanical equipment can be moved to the surface of installation point, the work of the second motor can drive the second sliding shoe to move
It is dynamic, and then clump weight can be driven to move, second crossbar uniform stressed can be made;
S6, the 4th motor, the 4th motor reversal are opened, electromechanical equipment can slowly be moved downward to mechanical and electric equipment installation point.
The hanging method is using a kind of hoisting mechanism for the installation of mine electromechanics, as shown in Figs. 1-5 comprising horizontal
The lower surface of beam 1, the crossbeam 1 offers third groove 20, and inside one end of the third groove 20 offers second inner chamber
18, the inside of the second inner chamber 18 is equipped with third motor 19, and the output shaft of the third motor 19 is connected by shaft coupling
There are third lead screw 21, one end of the third lead screw 21 to pass through 3rd bearing 22 and third groove through the side of second inner chamber 18
Other end rotation connection inside 20, and it is threaded with third sliding shoe 23 on the third lead screw 21, pass through third motor
19 rotations can drive third sliding shoe 23 to move, convenient for second crossbar 6 to be moved to and need to install near electromechanical top;Institute
The lower surface for stating third sliding shoe 23 is equipped with the 5th motor 4, and the output shaft of the 5th motor 4 is connected with by shaft coupling
The lower end of one shaft 5, the first rotating shaft 5 is fixedly connected with the upper surface of second crossbar 6, is rotated and is driven by the 5th motor 4
First rotating shaft 5 rotates, and can rotate second crossbar 6 to any angle;The lower surface of the second crossbar 6 offers the first groove
9 and second groove 14, and the lower surface of the second crossbar 6 offers first inner chamber 7, the first inner chamber 7 is provided with two groups,
And the inside of first inner chamber 7 described in one of which is equipped with first motor 8, the output shaft of the first motor 8 passes through shaft coupling
It is connected with the first lead screw 10, one end of first lead screw 10 passes through first bearing 11 and first through one end of the first groove 9
The other end of groove 9 is rotatablely connected.
The first sliding shoe 12 is threaded on first lead screw 10, first sliding shoe 12 is connected with clump weight
34, the inside of first inner chamber 7 described in another group is equipped with the second motor 13, and the output shaft of second motor 13 passes through shaft coupling
It is connected with the second lead screw 15, one end of second lead screw 15 passes through second bearing 16 and second through one end of the second groove 14
The other end of groove 14 is rotatablely connected.
It is threaded with the second sliding shoe 17 on second lead screw 15, simultaneously by first motor 8 and the second motor 13
Work, can make between the distance between the first sliding shoe 12 and first motor 8 and the second sliding shoe 17 and the second motor 13 away from
From being consistent, and then 6 uniform stressed of second crossbar can be made;The lower surface both ends of the second sliding shoe 17 are respectively equipped with the 4th
The output shaft of motor 24 and baffle 26, the 4th motor 24 is connected with the second shaft 25, second shaft by shaft coupling
25 one end is rotatablely connected with baffle 26, and steel wire rope 27, one end of the steel wire rope 27 are wrapped in second shaft 25
It is connected with hook 28.
Through-hole 29 is offered in the first inner chamber 7 and second inner chamber 18, the through-hole 29 is internally provided with third cross
Bar 30 is equipped with exhaust fan 31 on the third cross bar 30, by being equipped with exhaust fan 31 on third cross bar 30, can play heat dissipation
Effect, improve the service life of motor.
The bottom of the crossbeam 1 is equipped with holder 2, and the holder 2 is stainless steel stent, and branch is equipped with by the bottom of crossbeam 1
Frame 2, the holder 2 are stainless steel stent, are played a supporting role to crossbeam 1.
The bottom of the holder 2 is equipped with first crossbar 3, and the quantity of the first crossbar 3 is three groups, and first described in three groups
3 annular of cross bar is equidistantly positioned in the bottom of holder 2, is equidistantly positioned in holder 2 by 3 annular of first crossbar described in three groups
Bottom can preferably improve this stability for the hoisting mechanism of mine electromechanics installation.
The side of the crossbeam 1 is equipped with iron ladder 32, and the iron ladder 32 is vertically mounted on the lower section of crossbeam 1, passes through crossbeam 1
Side iron ladder 32 is installed, convenient for this for mine electromechanics installation hoisting mechanism a repair.
The length of the crossbeam 1 is longer than the length 0.5-0.8m of second crossbar 6, and the crossbeam 1 and second crossbar 6 are
Stainless steel material is made, and the length 0.5-0.8m of second crossbar 6 is longer than by the length of crossbeam 1, easily facilitates second crossbar 6
Rotation.
The height of the baffle 26 is highly consistent with the 4th motor 24, and the baffle 26 is stainless steel plate, passes through gear
The height of plate 26 is highly consistent with the 4th motor 24, improves stability when the 4th motor 24 uses.
The crossbeam 1 is fixedly connected by bolt 33 with holder 2.
In order to make the lifting quality of hoisting mechanism have, there are one larger ranges, when installing mine electromechanical equipment, not only
The mine electromechanical equipment of big quality can be sling, and the mine electromechanical equipment of smaller quality can be lifted, realizes the lifting
The matching of the mass M 1 and clump weight mass M 2 of mechanism lifting, and ensure the stability of the hoisting mechanism, the hoisting mechanism
The mass M 1 of lifting is more than or equal to 20 kilograms and is less than or equal to 5000 kilograms;The clump weight mass M 2 is less than more than or equal to 2 kilograms
Equal to 50 kilograms.Further, the mass M 1 and clump weight mass M 2 of hoisting mechanism lifting meet:M1M2 be more than etc.
In 100-240000.
In order to reduce the friction between the sliding shoe and lead screw, increase bearing capacity, and improve the use longevity of sliding shoe
Life, the sliding shoe are all made of trapezoidal thread or rectangular thread with lead screw, and the spacing d between the sliding shoe and lead screw is
0.1-0.25mm.Further, the material of the sliding shoe and lead screw is 45# steel, and hardness Y is HB230- after modifier treatment
240。
Spacing d between mass M 1, clump weight mass M 2, sliding shoe and lead screw that the hoisting mechanism lifts and hardness Y
Meet:
;
Wherein, β is spacing adjustment factor, value 0.025-0.27;Above formula only carries out numerical operation when calculating spacing d, no
Carry out unit-distance code.
Finally it should be noted that:The foregoing is only a preferred embodiment of the present invention, is not intended to restrict the invention,
Although the present invention is described in detail referring to the foregoing embodiments, for those skilled in the art, still may be used
With technical scheme described in the above embodiments is modified or equivalent replacement of some of the technical features,
All within the spirits and principles of the present invention, any modification, equivalent replacement, improvement and so on should be included in the present invention's
Within protection domain.